A trim press article handling apparatus includes a frame, a punch, a die, and a treadle. The punch is carried by the frame. The die is carried by the frame and cooperates in relative movement with the punch to sever articles from a web. The treadle is carried for movement relative to the die. The treadle includes a web guide member, a primary guide strip spaced from the guide member slightly greater than a thickness of the web, a secondary guide strip spaced from the guide member at least four thicknesses of the web and spaced apart from the primary guide strip, and an article detector carried by at least one of the primary guide strip and the secondary guide strip. The article detector is operative to detect position of an article in the web by detecting the position of a protuberance in the web as the protuberance is conveyed between the primary guide strip and the secondary guide strip. A method is also provided.
|
1. An article centering and severing device, comprising:
a treadle including a web guide plate and a guide strip;
a web conveyor having a drive wheel and a co-rotating follower wheel to move a web therebetween; and
a knock lever mechanism having a knock lever arm configured to carry at least one of the drive wheel and the follower wheel, the knock lever arm configured to engage a platen as the treadle is moved relative to the platen during a severing operation so as to open up a gap between the drive wheel and the follower wheel and release a respective edge of the web during the severing operation to ensure further centering of the web;
wherein the guide strip is provided in close proximity with the web guide plate relative to article apertures in the web guide plate to ensure alignment and positioning of the web and articles carried by the web.
17. An article centering and severing device, comprising:
a treadle including a web guide plate and a guide strip;
a web conveyor having a drive wheel and a co-rotating follower wheel to move a web therebetween; and
a pair of knock lever mechanisms with individual knock lever mechanisms provided on each edge of the treadle adjacent each respective edge of a web carried therebetween, the individual knock lever mechanism having a knock lever arm configured to carry at least one of the drive wheel and the follower wheel the knock lever arm configured to engage a platen as the treadle is moved relative to the platen during a severing operation so as to release a respective edge of the web during the severing operation to ensure further centering of the web;
wherein the guide strip is provided in dose proximity with the web guide plate relative to article apertures in the web guide plate to ensure alignment and positioning of the web and articles carried by the web.
2. The device of
3. The device of
4. The device of
5. The device of
6. The device of
7. The device of
8. The device of
9. The device of
10. The device of
11. The device of
12. The device of
13. The device of
14. The device of
15. The device of
16. The device of
18. The device of
19. The device of
20. The device of
21. The device of
22. The device of
23. The device of
24. The device of
25. The device of
26. The device of
27. The device of
29. The device of
|
This invention pertains to an apparatus and method for handling a thermoformed sheet or web of plastic or foam material containing thermoformed thin-walled articles when separating the articles from the web. More particularly, this invention relates to a trim press article handling apparatus such as a conveyor having a treadle in the form of a web and article conveying, guiding, and locating device.
Various devices are known for trimming thin-walled articles from sheets of thermoformed plastic material. The trimming or severing of such articles from a continuous sheet of thermoformable plastic and/or foam material has long been known in the art. Additionally, sheet guides and mechanical treadles are known for moving the sheet and articles for intermittent severing between coacting punches and dies of a trim press.
U.S. Pat. No. 4,173,161 discloses a mechanical trim press that includes a mechanical treadle having feed fingers mounted on the treadle. The feed fingers comprise a mechanical linkage that interacts with projecting integral tabs formed in the sheet to advance the sheet to a die in step-by-step movement that is mechanically synchronized with the stroke of the punch. The treadle also includes opposed pairs of vertical guide strips between each article. Each guide strip is carried by a spacer that is mounted onto a cross frame member of the treadle. Opposed pairs of guide strips, provided between each adjacent pair of formed articles in the sheet, are spaced apart slightly from each other by a distance slightly greater than the thickness of the sheet passing therebetween. However, such close spacing coupled with the use of guide strips between every adjacent pair of articles results in increased frictional forces which tends to result in mis-feeding and jamming of the treadle, particularly when running the treadle at relatively high product feed rates.
A treadle device is provided for conveying, guiding, and locating web-supported articles or products during a web processing operation. More particularly, a treadle assembly guides web-supported articles into a trim press prior to and while severing the articles from the web. Such treadle device provides accurate location of articles while moving the web and reducing frictional forces generated between the treadle and web which would otherwise result in an increased occurrence of mis-feeds and misalignment of the web and articles, particularly during relatively high speed trim operations. An additional degree of accuracy is also provided during such severing operation over that previously provided via use of accurate high speed conveying, guiding, and locating techniques. Additionally, feedback controlled operation is maintained to drive a servo pick and servo helper of a web feed delivery device associated with the treadle and trim press.
According to one aspect, a trim press article handling apparatus includes a frame, a punch, a die, and a treadle. The punch is carried by the frame. The die is carried by the frame and cooperates in relative movement with the punch to sever articles from a web. The treadle is carried for movement relative to the die. The treadle includes a web guide member, a primary guide strip spaced from the guide member slightly greater than a thickness of the web, a secondary guide strip spaced from the guide member at least four thicknesses of the web and spaced apart from the primary guide strip, and an article detector carried is by at least one of the primary guide strip and the secondary guide strip. The article detector is operative to detect position of an article in the web by detecting the position of a protuberance in the web as the protuberance is conveyed between the primary guide strip and the secondary guide strip.
According to another aspect, an article conveying, guiding, and locating device includes a treadle, a web conveyor, an article detector, and a controller. The treadle includes a web guide plate, and a guide strip spaced slightly greater than a thickness of the web from the guide plate. The web conveyor has a servo pick assembly and a servo helper assembly driven by a servo motor, and is configured to move a web of articles wherein the servo pick assembly is carried by the treadle. The article detector is carried by the treadle and is operative to detect location of an article in the web during movement of the web. The controller communicates with the drive motors and the article detector and is operative to controllably regulate and synchronize operation of the servo pick assembly and the servo helper assembly in response to detected location of the article.
According to yet another aspect, a method is provided for delivering web-supported articles between dies and punches of a trim press, including: providing a treadle having an article detector; while moving the web and articles, guiding the web and articles along the web and between a pair of articles in a row extending transverse to a travel path direction; detecting location of an article in the web using the article detector; in response to detecting the location of the article, controllably moving the web to position the article between a corresponding punch and die of the trim press.
Preferred embodiments of the invention are described below with reference to the following accompanying drawings.
This disclosure of the invention is submitted in furtherance of the constitutional purposes of the U.S. Patent Laws “to promote the progress of science and useful arts” (Article 1, Section 8).
Reference will now be made to a preferred embodiment of Applicant's invention. One exemplary implementation is described below and depicted with reference to the drawings comprising an article conveying, guiding, and locating device and method for aligning articles within a web of thermoformable material for a severing operation. While the invention is described by way of a preferred embodiment, it is understood that the description is not intended to limit the invention to this embodiment, but is intended to cover alternatives, equivalents, and modifications such as are included within the scope of the appended claims.
In an effort to prevent obscuring the invention at hand, only details germane to implementing the invention will be described in great detail, with presently understood peripheral details being incorporated by reference, as needed, as being presently understood in the art.
A preferred embodiment of Applicant's invention is shown on a thermoforming machine trim press having a treadle system that is generally designated with reference numeral 10 in FIG. 1. More particularly, treadle system 10 is provided on a trim press 12 to accurately convey, guide, and locate articles 14 formed within a sheet, or web, 16 of thermoformable material during an article trim operation that severs articles 14 from web 16. Treadle system 10 is operative to intermittently convey and align articles 14 so as to successively sever rows of such articles 14 from the web 16.
A control system 18 of treadle system 10 choreographs operation of trim press 10 acting in unison with a servo motor driven conveyor 20 that includes a servo pick assembly 60 and a servo helper assembly 62. Conveyor 20 moves web 16 in which individual articles, or products, 14 have previously been formed using a thermoforming machine (not shown). In operation, web 14 is driven in intermittent motion using control system 18 and conveyor 20 to successively feed individual rows of articles 14 into trim press 12 where the articles 14 are severed from web 16. During closure of trim press 12, treadle 10 aids in accurately positioning articles 14 with respect to punch and die members 22 and 24 just prior to severing articles 14 from web 16.
Further details of one exemplary trim press similar to trim press 12, but configured in a vertical orientation are disclosed in Applicant's co-pending U.S. patent application Ser. No. 09/576,219, entitled “Article Stacking Device, Trim Press Article Accumulator, and Method of Stacking Thermoformed Articles”, naming Jere F. Irwin as inventor. Such U.S. patent application Ser. No. 09/576,219 is herein incorporated 11 by reference. Trim press 12, as depicted herein, is a modified version of Applicant's commercially available trim press “Model 28NT Trim Press”, sold by Irwin Research and Development, of Yakima, Wash. The modifications entail adding the novel control system 18, conveyor assembly 20, and treadle system 10.
In order to improve the speed and accuracy with which articles 14 are severed from web 16 by trim press 12, treadle 10 is provided on trim press 12 incorporating desired features of Applicant's invention. Treadle 10 provides highly accurate article conveying, guiding, and locating when delivering web-supported articles between punches 22 and dies 24 of trim press 12.
Trim press 12 includes a movable platen 26, a stationary platen 28, a punch plate 30, and a die plate 32. Punch plate 30 is carried for movement by movable platen 26, whereas die plate 32 is fixedly carried by stationary platen 28. However, it is understood that platen 28 and die plate 32 can also be movably supported for operation according to an alternative construction.
As shown in
An electric servo motor 31 drives crank arm assemblies 34-37 via a transfer case assembly 33 including a pair of connected transfer cases and a respective pair of rotating drive shafts 39, 41 similar to those disclosed in U.S. Pat. No. 6,067,886, previously incorporated by reference.
Each crank arm assembly 34-37 comprises a throw arm 38 and a platen connecting rod 40, wherein arm 38 and rod 40 cooperate to form a kinematic linkage that drives a dedicated corner of platen 26 for horizontal, guided reciprocation. Additionally, two cylindrical, stationary guide posts (not shown) are rigidly carried by a frame 42 to support platen 26 for movement in an axial, horizontal direction. Optionally, four guide posts can be configured to support platen 26 with two corresponding bronze bushings. The use of platen guide posts is understood in the art. Accordingly, such guide posts have been omitted from the figures in order to simplify the drawing and to prevent obscuring the invention at hand.
Additionally, a pair of stationary, cylindrical guide posts 44, 46 are rigidly supported by frame 42 to guide horizontal, reciprocating movement of treadle 10 relative to frame 42 and stationary platen 28. Bronze 9 bushings 48 and 50-51 on treadle 10 are affixed to a frame 52 of treadle 10, and are configured to slide along guide posts 44, 46, is respectively.
Stationary guide members 54 and 56, in the form of pairs of edge guide tracks and central guide tracks, form a self-feeding canopy 49 that guides web 16 and articles 14. More particularly, guide members 54 and 56 guide and move web 16 and articles 14 from a thermoforming machine (not shown), positioned upstream of trim press 12, downwardly into treadle 10 and between punch plate 30 and die plate 32 for severing articles 14 from web 16 therebetween.
Web conveyor assembly 20 moves web 16 and articles 14 along guide members 54 and 56 and through treadle 10. Web conveyor 20 comprises a servo pick assembly 60 and a servo helper assembly 62. Servo pick assembly 60 is carried by treadle 10, whereas servo helper assembly 62 is carried by guide member 54. Accordingly, servo pick assembly 60 is carried for movement relative to stationary servo helper assembly 62.
As shown in
Servo pick assembly 60 and servo helper assembly 62, according to one construction, each include a Siemens servo motor Model Part No. 1FT5062-IAC71-4FAO, commercially available in the United States from Siemens Energy & Automation, of Atlanta, Ga. Additionally, the servo motors for servo pick assembly 60 and servo helper assembly 62 each further includes a rotary encoder which is used in conjunction with the servo motor as a feedback signal to detect motion of drive wheels 72 and 78 in order to directly measure the amount of feed imparted by server helper assembly 62 relative to the feed of servo pick assembly 60. Accordingly, the servo helper assembly is synchronized in relation to the speed of the servo pick assembly.
According to prior art techniques, a servo pick assembly was utilized with a helper assembly having a variable speed motor. The variable speed motor was regulated so as to deliver a distance of web at least as much as that which is moved by the servo pick assembly. An accumulation region was provided along guide member 54 to accumulate any excess web which is overfed by the helper assembly, wherein the helper assembly is driven by the variable speed motor which is run at a speed that delivers a web equal to or greater in quantity than that delivered by the servo pick assembly. Hence, the accumulation of web and articles occurs along the guide member. However, the buildup of excess sheet there along has a tendency to bounce the sheet and articles around, which can cause misalignment problems and cause a reduction in the maximum operating speed for the conveyor. Accordingly, synchronization of a servo helper assembly with a servo pick assembly leads to increased product throughput rates. Such result is realized because the motor on the servo helper assembly can duplicate a nearly identical motion as the motor on the servo pick assembly since both motors comprise servo motors.
Additionally, a photo proximity switch 112 is carried by guide member 56, beneath one edge of web 16 for detecting the proximity of web 16 in relation to guide member 56. More particularly, switch 112 comprises a Model No. E51-Q25FN6FF100Q sensor, otherwise referred to as an Easy-Easy-Beam Q25 Series sensor, sold commercially by Banner Engineering Corporation of Minneapolis, Minn. Such a photo proximity switch has a focal range that monitors the proximity of web 16. When the web is within a focal point range of approximately four inches, a digital output is generated. When the focal point exceeds the approximately four-inch range, a different digital value is generated and delivered to control system 18. Accordingly, control system 18 monitors the proximity of web 16 relative to guide member 56 of canopy 49. When a significant amount of detected separation occurs between web 16 and guide member 56, control system 18 reduces the operating speed of drive wheels 78 for servo helper assembly 62. Accordingly, the delivery speed of servo helper assembly 62 relative to servo pick assembly 60 is controllably regulated by control system 18 in response 9 to the signal detected by photo proximity switch 112. Alternatively, it is understood that any of a number of other proximity switches can be utilized, such as proximity mode ultrasonic sensors, or optical detectors.
By controllably regulating the operating speed of drive wheels 78 relative to drive wheels 72, the accumulation of web 16 therebetween is substantially prevented.
Accordingly, the need for a substantial accumulation area along guide member 54 is eliminated. Furthermore, motion of the web and articles is monitored at treadle 10 via article detector 80 and control system 18. For cases where servo helper assembly 62 does not exactly mimic the delivery rate for the servo pick assembly 60 or when misalignment is detected or likely to occur, control system 18 briefly and quickly opens or raises follower wheel 76 away from drive wheel 78 using a pneumatic cylinder which raises each follower wheel 76 along opposite edges of web 16. Hence, opening of follower wheels 76 for a very short period of time while trim press 12 is open enables realignment of the web and adjustment and spacing of the web between drive wheel assembly 64 and drive wheel assembly 66. For example, such opening in one case lasts 0.07 seconds. Such brief opening, actuated via pneumatic cylinders and control system 18, achieves minor corrections in the length and alignment of web positioned between drive wheel assemblies 64 and 66 which accounts for any minor variations in the amount of web delivered by servo pick assembly 60 and servo helper assembly 62. Accordingly, such correction is only implemented in response to monitoring of web and article delivery utilizing article detector 80 and/or switch 112. Alternatively, such correction can be implemented periodically, such as after every five trim press cycles.
According to one construction, optical beam 108 (see
As shown in
Accordingly, actuation of drive wheel assembly 64 via controller 68 is operative to intermittently deliver rows of articles 14 into trim press 12. Such rows of articles 14 are then severed as control circuitry 68 of central system 18 actuates a severing operation via trim press 10. Subsequently, a scrap web 74 is delivered from trim press 12 and ground into small pieces using a comminuting device (not shown) configured for grinding up scrap web 74 and positioned beneath trim press 12.
Similarly, drive wheel assembly 66 comprises two pairs of co-acting top and bottom wheels that are provided along opposite side edges of web 16. A topmost wheel of each pair comprises a follower wheel 76 and a bottom-most wheel of each pair comprises a drive wheel 78 that is actuated and driven by a servo motor. As was the case with driver assembly 64, drive wheels 78 of drive wheel assembly 66 are driven using a common servo motor, a splined drive shaft, splined drive wheels, and a pair of correspondingly splined drive rollers attached to each drive wheel 78. Accordingly, actuation of drive wheel assembly 66 via controller 18 is operative to intermittently deliver rows of articles 14 into trim press 12 in cooperation with drive wheel assembly 64.
As shown in
Additionally, web 16 is delivered through an oven and a thermoforming machine using a web conveyor, upstream of trim press 12. One exemplary detailed construction for a web conveyor is disclosed in U.S. Pat. No. 5,806,745, herein incorporated by reference.
According to one construction, article registration is carried out by adjusting the operation of conveyor 20 using controller 18 in order to adjust the advancement and positioning of individual articles between punch plate 30 and die plate 32.
However, in some cases, it is very difficult to adjust the set-up and component positioning for a web conveyor in order to accurately and precisely deliver articles 14 between punch plate 30 and die plate 32. Hence, article registration implemented solely using conveyor set-up and control does not always sever such articles in a sufficiently uniform and accurate manner. Furthermore, there are limitations to the accuracy with which a servo motor can drive conveyor assembly 20, and therefore, in the ability of such servo motors to accurately place articles 14 between punch plate 30 and die plate 32. Oftentimes, it is the case that articles 14 are off by several millimeters, which can produce an undesirable effect, particularly where article 14 is of a complicated shape, or article 14 comprises a foldable container having a hinge which requires a high degree of accuracy in forming and severing thereof in order to accurately place the hinge.
Accordingly, an article registration device (not shown) can alternatively be added to punch plate 30 and die plate 32 in order to provide an enhanced ability to accurately register articles 14 between punch plate 30 and die plate 32 when severing such articles 14 from web 16. One suitable article registration device is disclosed in Applicant's pending U.S. patent application Ser. No. 09/575,783, entitled “Apparatus and Method for Registering Articles During a Web Processing Operation”, now U.S. Pat. No. 6,435,067 B1, naming the inventor as Jere F. Irwin, and herein incorporated by reference.
After severing articles 14 from web 16, the scrap web is delivered into a comminuting apparatus (not shown) that is provided directly beneath punch plate 30 and die plate 32. Several different comminuting apparatus suitable for grinding up the resulting scrap web are disclosed in U.S. Pat. Nos. 4,687,144; 5,836,527; 5,860,607; and 5,893,523, each herein incorporated by reference. Scrap web 74 is accordingly forwarded into such a recycling, pulverizing machine where the scrap web is shredded and then later recycled to form a new web of thermoformable plastic material.
Details of one exemplary thermoforming machine suitable for forming articles 14 within web 16 are disclosed in U.S. Pat. No. 5,773,540. U.S. Pat. No. 5,773,540 is herein incorporated by reference.
Control system 18 of
As shown in
As shown in
As shown in
Primary guide member 82 and secondary guide member 84 each include an attachment plate 92 having a quick release adjustment collar 92 which includes a threaded, rotatable lock arm that enables clamping and unclamping of adjustment collar 92 along a central one of tie rods 90. In this manner, primary guide member 82 and secondary guide member 84 can be quickly and easily laterally adjusted in position relative to web guide plate 100 so as to accommodate changes to different die configurations.
Primary guide member 82 further comprises a clamp bar 96 affixed with fasteners to attachment plate 94, and further affixed to support a guide strip 98 that is nested in proximate relation relative to a surface of guide plate 100. According to one construction, a gap exists between guide strip 98 and web guide plate 100 somewhere in the range of 1-3.5 thicknesses of a web of material which is to be received and processed therebetween.
Secondary guide member 84 further comprises a clamp bar 96 carried by attachment plate 94 and further supporting a guide strip 198. Guide strip 198 is constructed so as to provide a substantially greater amount of clearance between guide strip 198 and web guide plate 100 than is provided between guide strip 98 and web guide plate 100. Accordingly, guide strip 198 is spaced apart from plate 100 at least 3.5 thicknesses of a web which is to be received and processed therethrough. Preferably, web guide plate 100 is provided within a range of 3.5 to 10 thicknesses (or more) of a web of material. In this manner, delivery of a web and articles there along is principally guided by guide strip 98, and little or no contact occurs between guide strip 198 and such web during a processing operation.
Additionally, as shown in
As additionally illustrated in
As shown in
As shown in
As shown in
As shown in
Also illustrated in
In compliance with the statute, the invention has been described 11 in language more or less specific as to structural and methodical features. It is to be understood, however, that the invention is not limited to the specific features shown and described, since the means herein disclosed comprise preferred forms of putting the invention into effect. The invention is, therefore, claimed in any of its forms or modifications within the proper scope of the appended claims appropriately interpreted in accordance with the doctrine of equivalents.
Patent | Priority | Assignee | Title |
7225051, | Aug 04 2005 | Magnecomp Corporation | Closed-loop feedback for maximizing Cpk in progressive forming operations |
7559759, | Jul 20 2004 | Irwin Research and Development, Inc.; IRWIN RESEARCH & DEVELOPMENT, INC | Trim press having an article ejector, article ejecting device with linear drive mechanism, and method |
8926310, | Oct 23 2007 | Cup thermoforming machine |
Patent | Priority | Assignee | Title |
1796417, | |||
2693235, | |||
3461760, | |||
3776078, | |||
3782618, | |||
3808927, | |||
3933069, | Feb 06 1975 | GRETAG IMAGING, INC | Camera film process film locating feed and cutter |
3948125, | Sep 22 1972 | AGFA-Gevaert, A.G. | Apparatus for treating webs of photographic material or the like |
4005626, | Apr 28 1975 | Standard Oil Company (Indiana) | Machine for indexing groups of nestable trimmed articles in a stack |
4040553, | Nov 16 1974 | Erich Grau Stanzwerk fur Elektrobleche | Intermittent stock feed mechanism |
4043494, | Feb 23 1976 | AMP Incorporated | Apparatus for feeding a plurality of wires |
4173161, | Sep 06 1977 | JOHN BROWN INDUSTRIES LTD , A CORP OF DE | Trim press |
4306474, | May 02 1980 | JOHN BROWN INDUSTRIES LTD , A CORP OF DE | Trim press with oscillating canopy sheet feed |
4380183, | May 20 1981 | Leesona Corporation | Plastics trim press sheet feeding mechanisms |
4430914, | Jul 10 1981 | Gloucester Engineering Co., Inc. | Rotary apparatus for advancing a web |
4526074, | Dec 01 1982 | Mobil Oil Corporation | High-speed apparatus and method for trimming thermoformed articles |
4636348, | Feb 19 1985 | John Brown Inc. | System for thermoforming articles such as picnic plates in a pair of simultaneously fed, continuous thermoplastic webs which subsequently move into nested relation, and then dually trimming the nested articles from the webs |
4687144, | Jun 13 1986 | IRWIN, JERE F ; VISION LIMITED PARTNERSHIP, THE | Apparatus for comminuting waste materials |
4792074, | Jul 11 1986 | L. Schuler GmbH | Arrangement and the stepwise advance of band material with two oppositely driven feed rollers |
4844852, | Dec 01 1987 | Tenneco Plastics Company | Method and apparatus for severing three dimensional thermoplastic articles |
5122029, | Oct 31 1990 | Tenneco Plastics Company | Apparatus and method for automatically counting and stacking trimmed molded articles |
5249492, | Feb 15 1991 | BROWN MACHINE LLC | Vertical trim press and stacking apparatus and method of trimming and stacking articles |
5761978, | Aug 25 1994 | MECHANICAL TOOL & ENGINEERING CO | Roll type stock feed apparatus with mechanical feed roll release |
5773540, | Apr 16 1996 | IRWIN, JERE F ; VISION LIMITED PARTNERSHIP, THE | Mold assembly for thermo-forming machine |
5806745, | Jun 05 1997 | IRWIN, JERE F ; VISION LIMITED PARTNERSHIP, THE | Adjustable conveyor for delivering thin web materials |
5836527, | Jun 06 1994 | IRWIN, JERE F ; IRWIN,JERE F ; VISION LIMITED PARTNERSHIP, THE | Apparatus for comminuting solid waste materials |
5860607, | Jan 08 1997 | IRWIN, JERE F ; VISION LIMITED PARTNERSHIP, THE | Apparatus for comminuting waste materials having screw delivery features |
5893523, | Jun 13 1997 | IRWIN, JERE F ; VISION LIMITED PARTNERSHIP, THE | Apparatus for comminuting waste materials having feed roll delivery features |
6067886, | Aug 02 1996 | IRWIN, JERE F ; VISION LIMITED PARTNERSHIP, THE | Machine trim press having counterbalance features |
RE29795, | Dec 16 1977 | Vamco Machine and Tool, Inc. | Self-contained feed roll for power punch presses |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Date | Maintenance Fee Events |
Jun 18 2008 | M2551: Payment of Maintenance Fee, 4th Yr, Small Entity. |
Jun 12 2012 | M2552: Payment of Maintenance Fee, 8th Yr, Small Entity. |
Jul 19 2016 | M2553: Payment of Maintenance Fee, 12th Yr, Small Entity. |
Jul 19 2016 | M2556: 11.5 yr surcharge- late pmt w/in 6 mo, Small Entity. |
Date | Maintenance Schedule |
Jan 18 2008 | 4 years fee payment window open |
Jul 18 2008 | 6 months grace period start (w surcharge) |
Jan 18 2009 | patent expiry (for year 4) |
Jan 18 2011 | 2 years to revive unintentionally abandoned end. (for year 4) |
Jan 18 2012 | 8 years fee payment window open |
Jul 18 2012 | 6 months grace period start (w surcharge) |
Jan 18 2013 | patent expiry (for year 8) |
Jan 18 2015 | 2 years to revive unintentionally abandoned end. (for year 8) |
Jan 18 2016 | 12 years fee payment window open |
Jul 18 2016 | 6 months grace period start (w surcharge) |
Jan 18 2017 | patent expiry (for year 12) |
Jan 18 2019 | 2 years to revive unintentionally abandoned end. (for year 12) |